Vehicle driver feedback device
First Claim
1. A system comprising:
- an in-vehicle device located in a vehicle that includes a graphical user interface and a processor; and
a data collection device wirelessly connected to the in-vehicle device, wherein the data collection device includes an accelerometer that collects and sends vehicle telematics data and acceleration data to the processor,wherein the in-vehicle device is configured to receive the vehicle telematics data and the acceleration data from the data collection device, wherein the processor processes the telematics data and the acceleration data in real time and causes the telematics data and the acceleration data to be displayed on the graphical user interface, and further wherein the graphical user interface includes a speed display and an acceleration display for displaying the telematics data and the acceleration data,wherein the acceleration display includes a two-dimensional rendering of a three-dimensional shape, wherein the two-dimensional rendering of the three-dimensional shape is located within a larger geometric shape and wherein based on the processed telematics data and the acceleration data, the two-dimensional rendering of the three-dimensional shape moves within the geometric shape,and further wherein the graphical user interface includes an animated state bobble-head driving avatar that displays an animated event, and further wherein the bobble-head driving avatar includes a head that moves on a body based on the telematics data from the accelerometer.
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Accused Products
Abstract
The disclosure relates generally to an in-vehicle feedback system, and more particularly, to an in-vehicle device with a display or graphical interface that collects driving data and provides feedback based on the driving data. The system may comprise an in-vehicle device that includes a graphical user interface and a processor and a data collection device wirelessly connected to the in-vehicle device. The in-vehicle device may be configured to receive vehicle telematics data from the data collection device and the processor may process the telematics data in real time and cause the telematics data to be displayed on the graphical user interface. The graphical user interface may include a speed display and an acceleration display.
44 Citations
20 Claims
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1. A system comprising:
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an in-vehicle device located in a vehicle that includes a graphical user interface and a processor; and a data collection device wirelessly connected to the in-vehicle device, wherein the data collection device includes an accelerometer that collects and sends vehicle telematics data and acceleration data to the processor, wherein the in-vehicle device is configured to receive the vehicle telematics data and the acceleration data from the data collection device, wherein the processor processes the telematics data and the acceleration data in real time and causes the telematics data and the acceleration data to be displayed on the graphical user interface, and further wherein the graphical user interface includes a speed display and an acceleration display for displaying the telematics data and the acceleration data, wherein the acceleration display includes a two-dimensional rendering of a three-dimensional shape, wherein the two-dimensional rendering of the three-dimensional shape is located within a larger geometric shape and wherein based on the processed telematics data and the acceleration data, the two-dimensional rendering of the three-dimensional shape moves within the geometric shape, and further wherein the graphical user interface includes an animated state bobble-head driving avatar that displays an animated event, and further wherein the bobble-head driving avatar includes a head that moves on a body based on the telematics data from the accelerometer. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. An in-vehicle device comprising:
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a data collection device that includes an accelerometer that collects and sends vehicle telematics data and acceleration data from a vehicle to a processor, wherein the processor is configured to receive and process the vehicle telematics data; and a graphical user interface configured to display the telematics data, wherein the graphical user interface includes an animated state bobble-head driving avatar that displays an animated event, and further wherein the bobble-head driving avatar includes a head that moves on a body based on the accelerometer, wherein the processor processes the telematics data and the acceleration data in real time and causes the telematics data and the acceleration data to be displayed on the graphical user interface, and further wherein the graphical user interface includes a speed display and an acceleration display for displaying the telematics data and the acceleration data, wherein the acceleration display includes a two-dimensional rendering of a three-dimensional shape, wherein the two-dimensional rendering of the three-dimensional shape is located within a larger geometric shape and wherein based on the processed telematics data and the acceleration data, the two-dimensional rendering of the three-dimensional shape moves within the geometric shape. - View Dependent Claims (12, 13, 14, 15)
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16. A system comprising:
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an in-vehicle device located in a vehicle that includes a graphical user interface and a processor; and a data collection device wirelessly connected to the in-vehicle device, wherein the data collection device includes an accelerometer that collects and sends vehicle telematics data and acceleration data to the processor, wherein the in-vehicle device is configured to receive the vehicle telematics data and the acceleration data from the data collection device, wherein the processor processes the telematics data and the acceleration data in real time and causes the telematics data and the acceleration data to be displayed on the graphical user interface, and further wherein the graphical user interface includes a speed display and an acceleration display for displaying the telematics data and the acceleration data, wherein the acceleration display includes a two-dimensional rendering of a three-dimensional shape, wherein the two-dimensional rendering of the three-dimensional shape is located within a larger geometric shape and wherein based on the processed telematics data and the acceleration data, the two-dimensional rendering of the three-dimensional shape moves within the geometric shape, wherein the acceleration display further includes a maximum acceleration and a minimum acceleration that is displayed in an x-axis, y-axis, and z-axis, with the x-axis representing a side-to-side movement of the vehicle, the y-axis representing a forward-backward movement of the vehicle, and the z-axis representing an upward-downward movement of the vehicle; and further wherein the graphical user interface includes an animated state bobble-head driving avatar that displays an animated event, and further wherein the bobble-head driving avatar includes a head that moves on a body based on the telematics data from the accelerometer. - View Dependent Claims (17, 18, 19, 20)
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Specification